{"project": {
"benefits": "Producing the materials needed to fabricate structures and vehicles is a critical requirement for the long-term occupation of space. If everything had to be delivered from Earth, the cost would be overwhelming. The process proposed here will allow the production of iron and nickel almost anywhere in the solar system in a form appropriate for use in Additive Manufacturing without consuming any material that must be brought from Earth. Once in the powder form the metals, if desired, can readily be converted to other forms such as rods, ingots, and sheets for use with conventional fabrication methods. Therefore, proposed process allows supplying both additive and conventional fabrication processes with metal.

The volatilization-based process to be used in the proposed project is already known as an effective method of producing high purity metals. Pure metals produced by this process are generally more expensive compared to those produced by other processes (for instance, iron reduced with coke), which limits their use to high value applications. A direct application of the proposed process is to permit the straight fabrication of metal in a form suitable for Additive Manufacturing processes rather than making bulk material and reducing its particle size. Indirectly, improvements made as part of this project will contribute to reducing the price gap and increasing the number of applications that can cost effectively use high purity iron and nickel.",
"programDirectors": {"programDirector": "Therese Griebel"},
"responsibleProgram": "SBIR/STTR",
"workLocations": {"workLocation": "Texas"},
"endDate": "Jun 2018",
"primaryTas": {"technologyAreas": [
{
"code": 7,
"name": "Human Exploration Destination Systems",
"id": 3245
},
{
"code": 7.1,
"name": "In-Situ Resource Utilization",
"id": 3293
},
{
"code": "7.1.3",
"name": "Processing and Production",
"id": 3741
}
]},
"destinations": {"destination": [
"The Moon",
"Mars",
"Others Inside the Solar System"
]},
"programManagers": {"programManager": "Carlos Torrez"},
"description": "Long-term occupation of space requires a supply of metal suitable for fabrication of various components and structures. While astronomical objects are rich in the desired metallic elements, these elements are in the form inappropriate for use in Additive Manufacturing processes. Lynntech, in collaboration with University of Texas El Paso, proposes to develop a process to convert material from its native state (typically an oxide dispersed in a silicate matrix) to one suitable for use in Additive Manufacturing methods to allow the direct fabrication of complex parts in space. Proposed process consists of four steps: grinding of the native material for ease of processing, reduction of oxides to zero valent metal, conversion of the metal to a volatile form for separation and recovery, and direct formation of metal powder in a size and purity suitable for use in Additive Manufacturing. Our unique process requires relatively low temperatures, recycles all the reagents (thus there is no need for consumables), and produces oxygen as a byproduct. Phase I effort will demonstrate the reduction, volatilization, and powder formation steps for nickel and iron using regolith simulant as the feedstock. Recovered metal powders will be thoroughly characterized for use in powder-based Additive Manufacturing processes.",
"technologyMaturityCurrent": 2,
"title": "Metal Production away from Earth, Phase I",
"leadOrganization": {
"acronym": "KSC",
"city": "Kennedy Space Center",
"name": "Kennedy Space Center",
"state": "FL",
"type": "NASA Center"
},
"technologyMaturityEnd": 3,
"additionalTas": "",
"principalInvestigators": {"principalInvestigator": "Olga Ivanova"},
"lastUpdated": "2018-01-10",
"supportingOrganizations": {"organization": [
{
"city": "College Station",
"name": "Lynntech, Inc.",
"state": "TX",
"type": "Industry"
},
{
"city": "El Paso",
"name": "University of Texas El Paso",
"state": "TX",
"type": "Academic"
}
]},
"library": {"libraryItem": [
{
"description": "Metal Production away from Earth, Phase I Briefing Chart",
"files": {"file": {
"size": 75153,
"id": 31889,
"url": "https://techport.nasa.gov/file/31889"
}},
"id": 42108,
"title": "Briefing Chart",
"type": "Document"
},
{
"description": "Metal Production away from Earth, Phase I Briefing Chart Image",
"files": {"file": {
"size": 46386,
"id": 30551,
"url": "https://techport.nasa.gov/file/30551"
}},
"id": 40774,
"title": "Briefing Chart Image",
"type": "Image"
}
]},
"technologyMaturityStart": 2,
"responsibleMissionDirectorateOrOffice": "Space Technology Mission Directorate",
"id": 93633,
"startDate": "Jun 2017",
"status": "Active"
}}